Atomic Scale Dynamics at Surfaces (eBook)

Giorgio Benedek, former Full Professor of Structure of Matter, is currently Emeritus Professor at the University of Milano-Bicocca, visiting professor at the Donostia International Physics Center (DIPC) in San Sebastian, Spain, Director of the Erice International School of Solid State Physics at the Erice Ettore Majorana Centre,  and a Foreign Member of the Royal Academy of Belgium. He is recipient of the International Franqui Chair, Belgium,  of the Alexander von Humboldt Award,  and co-recipient of the 2014 International Prize for Physics of the Lincei National Academy of Italy (with Diederik Wiersma) and the Max-Planck Prize 1992 with J. Peter Toennies.   Prof. Dr. J. Peter Toennies • Assistant from 1957 – 1998 at the Physics Department of the University of Bonn • Director at the Max Planck Institut für Strömungsforschung in Göttingen from 1969 – 1998 • Emeritus Director since 1998 • Honorary Degrees from University of Göteborg (Sweden) and Amherst College (USA) • Member of the National Academy of Science (Leopoldina) Halle,  Germany and corresponding member of the Göttingen Academy of Sciences. • Europhysics Hewlett-Packard Condensed Matter Division Prize (with G. Ertl and H. Ibach) , the Stern- Gerlach Medal of the German Physical Society and other international prizes including the Max-Planck Prize 1992 with Giorgio Benedek.    

Preface Acknowledgments List of Acronyms Notations Index 1.Introduction 2. Historical Survey 3.The Theory of Surface Phonons 4. Surface Forces and Structures from the Dispersion of Surface Phonons 5.Theoretical Methods of Surface Dynamics 6.The Atom-Surface Potential 7.Theory of Atom-Surface Phonon Scattering: 8.Theory of Atom-Surface Phonon Scattering: 9. Experimental Methods 10.Intensities and Resolution of HAS Experiments 11.Experimental Results 12.Vibrations of Adsorbates and Thin Films 13.New Horizons References Appendix A: Tabulation of Theoretical Studies of Surface Phonons Appendix B: Tabulation of Experimental and Theoretical Studies of Surface Phonons of Clean Surfaces in Insulators, Semiconductors, Metals and Layered Crystals Appendix C: Tabulation of Experimental Phonon Studies of Ultra-Thin Films Appendix D: Tabulation of Experimental Surface Debye Temperatures Compared to Bulk Debye and Melting Temperature Subject Index